package PDF::Create::Page;
our $VERSION = '1.39';
=encoding utf8
=head1 NAME
PDF::Create::Page - PDF pages tree for PDF::Create
=head1 VERSION
Version 1.39
=cut
use 5.006;
use strict; use warnings;
use Carp;
use FileHandle;
use Data::Dumper;
use POSIX qw(setlocale LC_NUMERIC);
use Scalar::Util qw(weaken);
use PDF::Font;
our $DEBUG = 0;
my $font_widths = &init_widths;
# Global variable for text function
my $ptext = '';
=head1 DESCRIPTION
B<FOR INTERNAL USE ONLY>
=cut
sub new {
my ($this) = @_;
my $class = ref($this) || $this;
my $self = {};
bless $self, $class;
$self->{'Kids'} = [];
$self->{'Content'} = [];
return $self;
}
=head1 METHODS
=head2 add($id, $name)
Adds a page to the PDF document.
=cut
sub add {
my ($self, $id, $name) = @_;
my $page = PDF::Create::Page->new();
$page->{'pdf'} = $self->{'pdf'};
weaken $page->{pdf};
$page->{'Parent'} = $self;
weaken $page->{Parent};
$page->{'id'} = $id;
$page->{'name'} = $name;
push @{$self->{'Kids'}}, $page;
return $page;
}
=head2 count()
Returns page count.
=cut
sub count {
my ($self) = @_;
my $c = 0;
$c++ unless scalar @{$self->{'Kids'}};
foreach my $page (@{$self->{'Kids'}}) {
$c += $page->count;
}
return $c;
}
=head2 kids()
Returns ref to a list of page ids.
=cut
sub kids {
my ($self) = @_;
my $t = [];
map { push @$t, $_->{'id'} } @{$self->{'Kids'}};
return $t;
}
=head2 list()
Returns page list.
=cut
sub list {
my ($self) = @_;
my @l;
foreach my $e (@{$self->{'Kids'}}) {
my @t = $e->list;
push @l, $e;
push @l, @t if scalar @t;
}
return @l;
}
=head2 new_page()
Return new page.
=cut
sub new_page {
my ($self, @params) = @_;
return $self->{'pdf'}->new_page('Parent' => $self, @params);
}
#
#
# Drawing functions
=head2 moveto($x, $y)
Moves the current point to (x, y), omitting any connecting line segment.
=cut
sub moveto {
my ($self, $x, $y) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$x $y m");
}
=head2 lineto($x, $y)
Appends a straight line segment from the current point to (x, y).
=cut
sub lineto {
my ($self, $x, $y) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$x $y l");
}
=head2 curveto($x1, $y1, $x2, $y2, $x3, $y3)
Appends a Bezier curve to the path. The curve extends from the current point to
(x3 ,y3) using (x1 ,y1) and (x2 ,y2) as the Bezier control points.The new current
point is (x3 ,y3).
=cut
sub curveto {
my ($self, $x1, $y1, $x2, $y2, $x3, $y3) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$x1 $y1 $x2 $y2 $x3 $y3 c");
}
=head2 rectangle($x, $y, $w, $h)
Adds a rectangle to the current path.
=cut
sub rectangle {
my ($self, $x, $y, $w, $h) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$x $y $w $h re");
}
=head2 closepath()
Closes the current subpath by appending a straight line segment from the current
point to the starting point of the subpath.
=cut
sub closepath {
my ($self) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("h");
}
=head2 newpath()
Ends the path without filling or stroking it.
=cut
sub newpath {
my ($self) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("n");
}
=head2 stroke()
Strokes the path.
=cut
sub stroke {
my ($self) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("S");
}
=head2 closestroke()
Closes and strokes the path.
=cut
sub closestroke {
my ($self) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("s");
}
=head2 fill()
Fills the path using the non-zero winding number rule.
=cut
sub fill {
my ($self) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("f");
}
=head2 fill2()
Fills the path using the even-odd rule.
=cut
sub fill2 {
my ($self) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("f*");
}
=head2 line($x1, $y1, $x2, $y2)
Draw a line between ($x1, $y1) and ($x2, $y2). Combined moveto / lineto / stroke
command.
=cut
sub line {
my ($self, $x1, $y1, $x2, $y2) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$x1 $y1 m $x2 $y2 l S");
}
=head2 set_width($w)
Set the width of subsequent lines to C<w> points.
=cut
sub set_width {
my ($self, $w) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$w w");
}
#
#
# Color functions
=head2 setgray($value)
Sets the color space to DeviceGray and sets the gray tint to use for filling paths.
=cut
sub setgray {
my ($self, $val) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$val g");
}
=head2 setgraystroke($value)
Sets the color space to DeviceGray and sets the gray tint to use for stroking paths.
=cut
sub setgraystroke {
my ($self, $val) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$val G");
}
=head2 setrgbcolor($r, $g, $b)
Sets the fill colors used for normal text or filled objects.
=cut
sub setrgbcolor {
my ($self, $r, $g, $b) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$r $g $b rg");
}
=head2 setrgbcolorstroke($r, $g, $b)
Set the color of the subsequent drawing operations. Valid r, g, and b values are
each between 0.0 and 1.0, inclusive.
Each color ranges from 0.0 to 1.0, i.e., darkest red (0.0) to brightest red(1.0).
The same holds for green and blue. These three colors mix additively to produce
the colors between black (0.0, 0.0, 0.0) and white (1.0, 1.0, 1.0).
PDF distinguishes between the stroke and fill operations and provides separate
color settings for each.
=cut
sub setrgbcolorstroke {
my ($self, $r, $g, $b) = @_;
croak "Error setting colors, need three values" if !defined $b;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add("$r $g $b RG");
}
#
#
# Text functions
=head2 text(%params)
Renders the text. Parameters are explained as below:
+--------+------------------------------------------------------------------+
| Key | Description |
+--------+------------------------------------------------------------------+
| start | The start marker, add directive BT |
| end | The end marker, add directive ET |
| text | Text to add to the pdf |
| F | Font index to be used, add directive /F<font_index> |
| Tf | Font size for the text, add directive <font_size> Tf |
| Ts | Text rise (super/subscript), add directive <mode> Ts |
| Tr | Text rendering mode, add directive <mode> Tr |
| TL | Text leading, add directive <number> TL |
| Tc | Character spacing, add directive <number> Tc |
| Tw | Word spacing, add directive <number> Tw |
| Tz | Horizontal scaling, add directive <number> Tz |
| Td | Move to, add directive <x> <y> Td |
| TD | Move to and set TL, add directive <x> <y> TD |
| rot | Move to and rotate (<r> <x> <y>), add directive |
| | <cos(r)>, <sin(r)>, <sin(r)>, <cos(r)>, <x>, <y> Tm |
| T* | Add new line. |
+--------+------------------------------------------------------------------+
=cut
sub text {
my ($self, %params) = @_;
PDF::Create::debug( 2, "text(%params):" );
my @directives = ();
if (defined $params{'start'}) { push @directives, "BT"; }
# Font index
if (defined $params{'F'}) {
push @directives, "/F$params{'F'}";
$self->{'pdf'}->uses_font($self, $params{'F'});
}
# Font size
if (defined $params{'Tf'}) { push @directives, "$params{'Tf'} Tf"; }
# Text Rise (Super/Subscript)
if (defined $params{'Ts'}) { push @directives, "$params{'Ts'} Ts"; }
# Rendering Mode
if (defined $params{'Tr'}) { push @directives, "$params{'Tr'} Tr"; }
# Text Leading
if (defined $params{'TL'}) { push @directives, "$params{'TL'} TL"; }
# Character spacing
if (defined $params{'Tc'}) { push @directives, "$params{'Tc'} Tc"; }
# Word Spacing
if (defined $params{'Tw'}) { push @directives, "$params{'Tw'} Tw"; }
# Horizontal Scaling
if (defined $params{'Tz'}) { push @directives, "$params{'Tz'} Tz"; }
# Moveto
if (defined $params{'Td'}) { push @directives, "$params{'Td'} Td"; }
# Moveto and set TL
if (defined $params{'TD'}) { push @directives, "$params{'TD'} TD"; }
# Moveto and rotateOA
my $pi = atan2(1, 1) * 4;
my $piover180 = $pi / 180;
if (defined $params{'rot'}) {
my ($r, $x, $y) = split( /\s+/, $params{'rot'}, 3 );
$x = 0 unless ($x > 0);
$y = 0 unless ($y > 0);
my $cos = cos($r * $piover180);
my $sin = sin($r * $piover180);
push @directives, sprintf("%.5f %.5f -%.5f %.5f %s %s Tm", $cos, $sin, $sin, $cos, $x, $y);
}
# New line
if (defined $params{'T*'}) { push @directives, "T*"; }
if (defined $params{'text'}) {
$params{'text'} =~ s|([()])|\\$1|g;
push @directives, "($params{'text'}) Tj";
}
if (defined $params{'end'}) {
push @directives, "ET";
$ptext = join(' ', @directives);
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->add($ptext);
}
PDF::Create::debug( 3, "text(): $ptext" );
1;
}
=head2 string($font, $size, $x, $y, $text $alignment)
Add text to the current page using the font object at the given size and position.
The point (x, y) is the bottom left corner of the rectangle containing the text.
The optional alignment can be 'r' for right-alignment and 'c' for centered.
Example :
my $f1 = $pdf->font(
'Subtype' => 'Type1',
'Encoding' => 'WinAnsiEncoding',
'BaseFont' => 'Helvetica'
);
$page->string($f1, 20, 306, 396, "some text");
=cut
sub string {
my ($self, $font, $size, $x, $y, $string, $align,
$char_spacing, $word_spacing) = @_;
$align = 'L' unless defined $align;
if (uc($align) eq "R") {
$x -= $size * $self->string_width($font, $string);
} elsif (uc($align) eq "C") {
$x -= $size * $self->string_width($font, $string) / 2;
}
my @directives = (
'BT',
"/F$font",
"$size Tf",
);
if (defined $char_spacing && $char_spacing =~ m/[0-9]+\.?[0-9]*/) {
push @directives, sprintf("%s Tc", $char_spacing);
}
if (defined $word_spacing && $word_spacing =~ m/[0-9]+\.?[0-9]*/) {
push @directives, sprintf("%s Tw", $word_spacing);
}
$string =~ s|([()])|\\$1|g;
push @directives,
"$x $y Td",
"($string) Tj",
'ET';
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->uses_font($self, $font);
$self->{'pdf'}->add(join(' ', @directives));
}
=head2 string_underline($font, $size, $x, $y, $text, $alignment)
Draw a line for underlining.The parameters are the same as for the string function
but only the line is drawn. To draw an underlined string you must call both,string
and string_underline. To change the color of your text use the C<setrgbcolor()>.
It returns the length of the string. So its return value can be used directly for
the bounding box of an annotation.
Example :
$page->string($f1, 20, 306, 396, "some underlined text");
$page->string_underline($f1, 20, 306, 396, "some underlined text");
=cut
sub string_underline {
my ($self, $font, $size, $x, $y, $string, $align) = @_;
$align = 'L' unless defined $align;
my $len1 = $self->string_width($font, $string) * $size;
my $len2 = $len1 / 2;
if (uc($align) eq "R") {
$self->line($x - $len1, $y - 1, $x, $y - 1);
} elsif (uc($align) eq "C") {
$self->line($x - $len2, $y - 1, $x + $len2, $y - 1);
} else {
$self->line($x, $y - 1, $x + $len1, $y - 1);
}
return $len1;
}
=head2 stringl($font, $size, $x, $y $text)
Same as C<string()>.
=cut
sub stringl {
my ($self, $font, $size, $x, $y, $string) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->uses_font($self, $font);
$string =~ s|([()])|\\$1|g;
$self->{'pdf'}->add("BT /F$font $size Tf $x $y Td ($string) Tj ET");
}
=head2 stringr($font, $size, $x, $y, $text)
Same as C<string()> but right aligned (alignment 'r').
=cut
sub stringr {
my ($self, $font, $size, $x, $y, $string) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->uses_font($self, $font);
$x -= $size * $self->string_width($font, $string);
$string =~ s|([()])|\\$1|g;
$self->{'pdf'}->add(" BT /F$font $size Tf $x $y Td ($string) Tj ET");
}
=head2 stringc($font, $size, $x, $y, $text)
Same as C<string()> but centered (alignment 'c').
=cut
sub stringc {
my ($self, $font, $size, $x, $y, $string) = @_;
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->uses_font($self, $font);
$x -= $size * $self->string_width($font, $string) / 2;
$string =~ s|([()])|\\$1|g;
$self->{'pdf'}->add(" BT /F$font $size Tf $x $y Td ($string) Tj ET");
}
=head2 string_width($font, $text)
Return the size of the text using the given font in default user space units.This
does not contain the size of the font yet, to get the length you must multiply by
the font size.
=cut
sub string_width {
my ($self, $font, $string) = @_;
croak 'No string given' unless defined $string;
my $fname = $self->{'pdf'}{'fonts'}{$font}{'BaseFont'}[1];
croak('Unknown font: ' . $fname) unless defined $$font_widths{$fname}[ ord "M" ];
my $w = 0;
for my $c ( split '', $string ) {
$w += $$font_widths{$fname}[ ord $c ];
}
return $w / 1000;
}
=head2 printnl($text, $font, $size, $x, $y)
Similar to C<string()> but parses the string for newline and prints each part on
a separate line. Lines spacing is the same as the font-size.Returns the number of
lines.
Note the different parameter sequence.The first call should specify all parameters,
font is the absolute minimum, a warning will be given for the missing y position
and 800 will be assumed. All subsequent invocations can omit all but the string
parameters.
ATTENTION:There is no provision for changing pages.If you run out of space on the
current page this will draw the string(s) outside the page and it will be invisible.
=cut
sub printnl {
my ($self, $s, $font, $size, $x, $y) = @_;
$self->{'current_font'} = $font if defined $font;
croak 'No font found !' if !defined $self->{'current_font'};
# set up current_x/y used in stringml
$self->{'current_y'} = $y if defined $y;
carp 'No starting position given, using 800' if !defined $self->{'current_y'};
$self->{'current_y'} = 800 if !defined $self->{'current_y'};
$self->{'current_x'} = $x if defined $x;
$self->{'current_x'} = 20 if !defined $self->{'current_x'};
$self->{'current_size'} = $size if defined $size;
$self->{'current_size'} = 12 if !defined $self->{'current_size'};
# print the line(s)
my $n = 0;
for my $line ( split '\n', $s ) {
$n++;
$self->string($self->{'current_font'}, $self->{'current_size'}, $self->{'current_x'}, $self->{'current_y'}, $line);
$self->{'current_y'} = $self->{'current_y'} - $self->{'current_size'};
}
return $n;
}
=head2 block_text(\%params)
Add block of text to the page. Parameters are explained as below:
+------------+--------------------------------------------------------------+
| Key | Description |
+------------+--------------------------------------------------------------+
| page | Object of type PDF::Create::Page |
| font | Font index to be used. |
| text | Text block to be used. |
| font_size | Font size for the text. |
| text_color | Text color as arrayref i.e. [r, g, b] |
| line_width | Line width (in points) |
| start_y | First row number (in points) when adding new page. |
| end_y | Last row number (in points) when to add new page. |
| x | x co-ordinate to start the text. |
| y | y co-ordinate to start the text. |
+------------+--------------------------------------------------------------+
use strict; use warnings;
use PDF::Create;
my $pdf = PDF::Create->new('filename'=>"$0.pdf", 'Author'=>'MANWAR', 'Title'=>'Create::PDF');
my $root = $pdf->new_page('MediaBox' => $pdf->get_page_size('A4'));
my $page = $root->new_page;
my $font = $pdf->font('BaseFont' => 'Helvetica');
$page->rectangle(30, 780, 535, 40);
$page->setrgbcolor(0,1,0);
$page->fill;
$page->setrgbcolorstroke(1,0,0);
$page->line(30, 778, 565, 778);
$page->setrgbcolor(0,0,1);
$page->string($font, 15, 102, 792, 'MANWAR - PDF::Create');
my $text = qq{
Lorem Ipsum is simply dummy text of the printing and typesetting industry. Lorem Ipsum has been the industry's standard dummy text ever since the 1500s, when an unknown printer took a galley of type and scrambled it to make a type specimen book. It has survived not only five centuries, but also the leap into ele-It has survived not only five centuries, but also the leap into electronic typesetting, remaining essentially unchanged. It was popularised in the 1960s with the release of Letraset sheets containing Lorem Ipsum passages, and more recently with desktop publishing software like Aldus PageMaker including versions
};
$page->block_text({
page => $page,
font => $font,
text => $text,
font_size => 6,
text_color => [0,0,1],
line_width => 535,
start_y => 780,
end_y => 60,
'x' => 30,
'y' => 770,
});
$pdf->close;
=cut
sub block_text {
my ($self, $params) = @_;
croak "ERROR: parameters to method block_text() should be hashref.\n"
unless (defined $params && (ref($params) eq 'HASH'));
my $page = $params->{page};
my $font = $params->{font};
my $text = $params->{text};
my $font_size = $params->{font_size};
my $text_color = $params->{text_color};
my $line_width = $params->{line_width};
my $start_y = $params->{start_y} || 0;
my $end_y = $params->{end_y} || 0;
my $x = $params->{x};
my $y = $params->{y};
my $one_space = $page->string_width($font, ' ') * $font_size;
my $para_space_factor = 1.5;
$para_space_factor = $params->{para_space_factor}
if (exists $params->{para_space_factor}
&& defined $params->{para_space_factor});
my @lines = ();
foreach my $block (split /\n/, $text) {
my @words = split(/ /, $block);
my $para_last_line = 0;
while (@words) {
my $num_words = 1;
my $string_width = 0;
my $space_width = undef;
while (1) {
$string_width = $font_size * $page->string_width(
$font, _get_text(\@words, $num_words));
# Shorter, try one more word
if ($string_width + $one_space < $line_width) {
if (scalar(@words) > $num_words) {
$num_words++;
next;
}
}
last if ($num_words == 1);
# Longer, chop a word off, then space accordingly
$para_last_line = scalar(@words) == $num_words;
if ($string_width + $one_space > $line_width || $para_last_line) {
unless ($para_last_line) {
$num_words--;
}
$string_width = $font_size * $page->string_width(
$font, _get_text(\@words, $num_words));
$space_width = ($line_width - $string_width) / $num_words;
last;
}
}
my %text_param = (
start => 1,
Tw => $space_width,
F => $font,
Tf => $font_size,
Td => "$x $y",
text => _get_text(\@words, $num_words),
end => 1,
);
if ($para_last_line) {
delete $text_param{Tw};
}
$page->text(%text_param);
if ($y <= $end_y) {
$y = $start_y;
$page = $page->{'Parent'}->new_page();
$page->setrgbcolor(@$text_color);
}
else {
$y -= int($font_size * $para_space_factor);
if ($para_last_line) {
$y -= int($font_size * $para_space_factor);
}
}
splice(@words, 0, $num_words);
}
}
}
=head2 image(%params)
Inserts an image. Parameters can be:
+----------------+----------------------------------------------------------+
| Key | Description |
+----------------+----------------------------------------------------------+
| | |
| image | Image id returned by PDF::image (required). |
| | |
| xpos, ypos | Position of image (required). |
| | |
| xalign, yalign | Alignment of image.0 is left/bottom, 1 is centered and 2 |
| | is right, top. |
| | |
| xscale, yscale | Scaling of image. 1.0 is original size. |
| | |
| rotate | Rotation of image.0 is no rotation,2*pi is 360° rotation.|
| | |
| xskew, yskew | Skew of image. |
| | |
+----------------+----------------------------------------------------------+
Example jpeg image:
# include a jpeg image with scaling to 20% size
my $jpg = $pdf->image("image.jpg");
$page->image(
'image' => $jpg,
'xscale' => 0.2,
'yscale' => 0.2,
'xpos' => 350,
'ypos' => 400
);
=cut
sub image {
my ($self, %params) = @_;
# Switch to the 'C' locale, we need printf floats with a '.', not a ','
my $savedLocale = setlocale(LC_NUMERIC);
setlocale(LC_NUMERIC,'C');
my $img = $params{'image'} || "1.2";
my $image = $img->{num};
my $xpos = $params{'xpos'} || 0;
my $ypos = $params{'ypos'} || 0;
my $xalign = $params{'xalign'} || 0;
my $yalign = $params{'yalign'} || 0;
my $xscale = $params{'xscale'} || 1;
my $yscale = $params{'yscale'} || 1;
my $rotate = $params{'rotate'} || 0;
my $xskew = $params{'xskew'} || 0;
my $yskew = $params{'yskew'} || 0;
$xscale *= $img->{width};
$yscale *= $img->{height};
if ($xalign == 1) {
$xpos -= $xscale / 2;
} elsif ($xalign == 2) {
$xpos -= $xscale;
}
if ($yalign == 1) {
$ypos -= $yscale / 2;
} elsif ($yalign == 2) {
$ypos -= $yscale;
}
$self->{'pdf'}->page_stream($self);
$self->{'pdf'}->uses_xobject( $self, $image );
$self->{'pdf'}->add("q\n");
# TODO: image: Merge position with rotate
$self->{'pdf'}->add("1 0 0 1 $xpos $ypos cm\n")
if ($xpos || $ypos);
if ($rotate) {
my $sinth = sin($rotate);
my $costh = cos($rotate);
$self->{'pdf'}->add("$costh $sinth -$sinth $costh 0 0 cm\n");
}
if ($xscale || $yscale) {
$self->{'pdf'}->add("$xscale 0 0 $yscale 0 0 cm\n");
}
if ($xskew || $yskew) {
my $tana = sin($xskew) / cos($xskew);
my $tanb = sin($yskew) / cos($xskew);
$self->{'pdf'}->add("1 $tana $tanb 1 0 0 cm\n");
}
$self->{'pdf'}->add("/Image$image Do\n");
$self->{'pdf'}->add("Q\n");
# Switch to the 'C' locale, we need printf floats with a '.', not a ','
setlocale(LC_NUMERIC,$savedLocale);
}
# Table with font widths for the supported fonts.
sub init_widths
{
my $font_widths = {};
foreach my $name (keys %{$PDF::Font::SUPPORTED_FONTS}) {
$font_widths->{$name} = PDF::Font->new($name)->char_width;
}
return $font_widths;
}
#
#
# PRIVATE METHODS
sub _get_text ($$) {
my ($words, $num_words) = @_;
if (scalar @$words < $num_words) { die @_ };
return join(' ', map { $$words[$_] } (0..($num_words-1)));
}
=head1 AUTHORS
Fabien Tassin
GIF and JPEG-support: Michael Gross (info@mdgrosse.net)
Maintenance since 2007: Markus Baertschi (markus@markus.org)
Currently maintained by Mohammad S Anwar (MANWAR) C<< <mohammad.anwar at yahoo.com> >>
=head1 REPOSITORY
L<https://github.com/manwar/pdf-create>
=head1 COPYRIGHT
Copyright 1999-2001,Fabien Tassin.All rights reserved.It may be used and modified
freely, but I do request that this copyright notice remain attached to the file.
You may modify this module as you wish,but if you redistribute a modified version,
please attach a note listing the modifications you have made.
Copyright 2007 Markus Baertschi
Copyright 2010 Gary Lieberman
=head1 LICENSE
This is free software; you can redistribute it and / or modify it under the same
terms as Perl 5.6.0.
=cut
1;